NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = V.A.Plujko Found 57 matches. 2023GO04 Iader.Fiz.Enerh. 24, 17 (2023) O.M.Gorbachenko, V.A.Plujko, A.I.Kucher, V.M.Petrenko Description of photoabsorption using photon strength function with the excitation of two resonance states NUCLEAR STRUCTURE 130,132Sn; analyzed available data; deduced resonance parameters, photon strength function (PSF) of the model of two coupled damped oscillators (Two State Excitations, TSE) for the description of nuclear data for photoabsorption of electric dipole gamma-rays by atomic nuclei, PSF with excitation of both low-energy (pigmy) dipole resonance (PDR) and high-energy giant dipole resonance (GDR).
doi: 10.15407/jnpae2023.01.017
2021BO10 Nucl.Phys. A1010, 122192 (2021) B.M.Bondar, O.M.Gorbachenko, B.Yu.Leshchenko, I.M.Kadenko, V.A.Plujko, K.M.Solodovnyk Gamma-ray spectrum from Cd induced by fast neutrons in indoor experiments NUCLEAR REACTIONS Fe, 209Bi, Cd, Ni, Sn(n, X), E=14.1 MeV; analyzed available data; deduced γ-ray spectra.
doi: 10.1016/j.nuclphysa.2021.122192
2021PL01 Iader.Fiz.Enerh. 22, 221 (2021) V.A.Plujko, O.M.Gorbachenko, K.M.Solodovnyk, V.M.Petrenko Reconstruction of high-energy part of the gamma-ray spectrum in thermal neutron capture by 113Cd NUCLEAR REACTIONS 113Cd(n, γ), E thermal; analyzed available data; calculated γ-spectra using EMPIRE and TALYS codes.
doi: 10.15407/jnpae2021.03.221
2019RU01 Acta Phys.Pol. B50, 753 (2019) A.T.Rudchik, A.A.Rudchik, O.E.Kutsyk, K.W.Kemper, S.Kliczewski, K.Rusek, E.Piasecki, A.Trzcinska, E.I.Koshchy, Val.M.Pirnak, O.A.Ponkratenko, I.Strojek, V.A.Plujko, A.Stolarz, S.B.Sakuta, R.Siudak, O.V.Herashchenko, A.P.Ilyin, Yu.M.Stepanenko, Yu.O.Shyrma, V.V.Uleshchenko Elastic and Inelastic Scattering of 15N Ions by 12C at 81 MeV and the Effect of Transfer Channels NUCLEAR REACTIONS 12C(15N, 15N), (15N, 15N'), E=81 MeV; measured reaction products; deduced σ(θ), deformation parameters, parameters of Woods-Saxon potentials.
doi: 10.5506/APhysPolB.50.753
2019RU04 Nucl.Phys. A992, 121638 (2019) A.T.Rudchik, A.A.Rudchik, O.E.Kutsyk, K.W.Kemper, K.Rusek, E.Piasecki, A.Trzcinska, S.Kliczewski, E.I.Koshchy, Val.M.Pirnak, O.A.Ponkratenko, I.Strojek, V.A.Plujko, S.B.Sakuta, R.Siudak, A.P.Ilyin, Yu.M.Stepanenko, Yu.O.Shyrma, V.V.Uleshchenko 12C(15N, 14C)13N reaction at 81 MeV. Competition between one and two particle transfers
doi: 10.1016/j.nuclphysa.2019.121638
2018PL01 At.Data Nucl.Data Tables 123-124, 1 (2018) V.A.Plujko, O.M.Gorbachenko, R.Capote, P.Dimitriou Giant dipole resonance parameters of ground-state photoabsorption: Experimental values with uncertainties COMPILATION Z=3-92; compiled the updated values and corresponding uncertainties of Isovector Giant Dipole Resonance (GDR) parameters.
doi: 10.1016/j.adt.2018.03.002
2018RU03 Nucl.Phys. A971, 138 (2018) A.T.Rudchik, A.A.Rudchik, L.M.Muravynets, K.W.Kemper, K.Rusek, E.I.Koshchy, E.Piasecki, A.Trzcinska, Val.M.Pirnak, O.A.Ponkratenko, I.Strojek, A.Stolarz, V.A.Plujko, S.B.Sakuta, R.Siudak, A.P.Ilyin, Yu.M.Stepanenko, Yu.O.Shyrma, V.V.Uleshchenko 7Li(15N, 14C)8Be reaction at 81 MeV and 14C + 8Be interaction versus that of 13C + 8Be NUCLEAR REACTIONS 7Li(15N, 14C)8Be, E=81 MeV; measured reaction products angular distributions to 8Be gs and first two excited states; deduced σ(θ); calculated σ(θ) using CRC (Coupled Reaction Channels) FRESCO code with potential from earlier analyses and spectroscopic amplitudes using TISM (Translationally Invariant Shell Model) code DESNA. 8Be(14C, 13C), E not given;13C(8Be, 7Li), E not given; calculated σ(θ) using CRC; deduced WS potential parameters to be used for the 7Li(15N, 14C)8Be.
doi: 10.1016/j.nuclphysa.2018.01.014
2017RU01 Nucl.Phys. A958, 234 (2017) A.T.Rudchik, A.A.Rudchik, L.M.Muravynets, K.W.Kemper, K.Rusek, E.Piasecki, A.Trzcinska, E.I.Koshchy, Val.M.Pirnak, O.A.Ponkratenko, I.Strojek, A.Stolarz, O.V.Herashchenko, Yu.M.Stepanenko, V.A.Plujko, S.B.Sakuta, R.Siudak, A.Szczurek Elastic and inelastic scattering of 15N ions by 7Li at 81 MeV versus that of 14N ions by 7Li at 80 and 110 MeV NUCLEAR REACTIONS 7Li(15N, 15N), (15N, 15N'), E=81 MeV;7Li(14N, 14N), (14N, 14N'), E=80, 110 MeV. 7Li measured E(7Li), I(θ, 7Li) using ΔE-E Si telescopes; deduced σ(θ); calculated spectroscopic amplitudes, deformation. σ(θ), reaction σ using CC within TISM (Translational Invariant Shell Model); deduced potential parameters.
doi: 10.1016/j.nuclphysa.2016.12.007
2017ZH17 Ukr.J.Phys. 62, 285 (2017) V.O.Zheltonozhskyi, A.M.Savrasov, K.M.Solodovnyk, V.A.Plujko, O.M.Gorbachenko, O.I.Davydovska Isomer Ratios and Mean Angular Momenta of Primary 97Nb Fragments at235U and 238U Photofission NUCLEAR REACTIONS 235,238U(γ, F)97Nb, E=10.5, 12.0, 18.0 MeV; measured reaction products, Eγ, Iγ; deduced isomeric yield ratios, mean angular momenta of primary fission fragments. the generalized Huizenga-Vandenbosh statistical model, TALYS 1.6and EMPIRE 3.2 nuclear model codes.
doi: 10.15407/ujpe62.04.0285
2016MA76 Phys.Rev. C 94, 054620 (2016) A.G.Magner, M.I.Gorenstein, U.V.Grygoriev, V.A.Plujko Shear viscosity of nuclear matter
doi: 10.1103/PhysRevC.94.054620
2014PL03 Nucl.Data Sheets 118, 237 (2014) V.A.Plujko, O.M.Gorbachenko, E.P.Rovenskykh, V.A.Zheltonozhskii Average Description of Dipole Gamma Transitions in Hot Atomic Nuclei NUCLEAR STRUCTURE 92Mo, 167,168Er; calculated γ-ray strength function using with different forms of γ Lorentzian. Compared to data. NUCLEAR REACTIONS Fe(n, γ), E=0.04-20 MeV; calculated σ using different models for different forms of γ Lorentzians.
doi: 10.1016/j.nds.2014.04.046
2014PL04 Nucl.Data Sheets 118, 240 (2014) V.A.Plujko, O.M.Gorbachenko, B.M.Bondar, E.P.Rovenskykh Nuclear Level Density within Extended Superfluid Model with Collective State Enhancement NUCLEAR STRUCTURE A=50-250; calculated level density parameter using enhancement factor for vibrational states. NUCLEAR REACTIONS 56Fe(n, γ), E=0.04-20 MeV; calculated σ using level density with vibrational enhancement factor. Compared with data.
doi: 10.1016/j.nds.2014.04.047
2014RU01 Nucl.Phys. A922, 71 (2014) A.T.Rudchik, S.Kliczewski, K.A.Chercas, K.W.Kemper, E.I.Koshchy, K.Rusek, A.A.Rudchik, S.Yu.Mezhevych, V.M.Pirnak, V.A.Plujko, O.A.Ponkratenko, J.Choinski, B.Czech, R.Siudak, A.Szczurek, A.Stolarz, R.M.Zelinskyi Elastic and inelastic scattering of 6Li + 18O versus 7Li + 18O and 6Li + 16O NUCLEAR REACTIONS 6Li(18O, 18O), (18O, 18O'), E=114 MeV; measured E(particle), I(particle, θ) using ΔE-E Si telescopes; deduced σ(θ); calculated σ(θ), spectroscopic amplitudes of specified clusters using optical potential including one- and two-step transfers and parameters from CC analyses of nearby reactions. 6Li deduced deformation parameters. Compared to data and data of nearby reactions.
doi: 10.1016/j.nuclphysa.2013.10.013
2014RU06 Nucl.Phys. A927, 209 (2014) A.T.Rudchik, K.A.Chercas, K.W.Kemper, A.A.Rudchik, S.Kliczewski, E.I.Koshchy, K.Rusek, S.Yu.Mezhevych, O.A.Ponkratenko, Val.M.Pirnak, V.A.Plujko, J.Choinski, B.Czech, R.Siudak, A.Szczurek 6Li(18O, 17O)7Li reaction and comparison of 6, 7Li + 16, 17, 18O potentials NUCLEAR REACTIONS 6Li(18O, 17O), (18O, 18O), (18O, 18O'), E=114 MeV; measured reaction products. 7Li, 17O deduced σ(Eout, θ); calculated σ(Eout, θ) using CC; deduced spectroscopic amplitudes for various clusters, potential parameters.
doi: 10.1016/j.nuclphysa.2014.04.018
2014RU11 Eur.Phys.J. A 50, 159 (2014) A.T.Rudchik, O.V.Herashchenko, K.W.Kemper, K.Rusek, A.A.Rudchik, E.I.Koshchy, S.Kliczewski, S.Yu.Mezhevych, A.V.Mokhnach, Val.M.Pirnak, O.A.Ponkratenko, V.A.Plujko, J.Choinski, R.Siudak, A.Stolarz, A.Szczurek, A.P.Ilyin, V.V.Uleshchenko Elastic and inelastic scattering of 14N ions by 7Li at 80 MeV (c.m. 26.7 MeV) NUCLEAR REACTIONS 7Li(14N, 14N), (14N, 14N'), E=80 MeV; measured reaction products; deduced σ, σ(θ), spectroscopic amplitudes, parameters of the nucleus-nucleus potentials. Optical model and the coupled-reaction-channels method using a channels-coupling scheme.
doi: 10.1140/epja/i2014-14159-9
2013RU08 Eur.Phys.J. A 49, 74 (2013) A.T.Rudchik, R.M.Zelinskyi, K.W.Kemper, K.A.Chercas, A.A.Rudchik, V.M.Pirnak, V.A.Plujko, O.A.Ponkratenko Energy dependence of the 6Li + 16O elastic scattering versus that of 7Li + 16O NUCLEAR REACTIONS 16O(6Li, 6Li), E=4.5, 5.8, 9, 13, 20, 22.8, 25.7, 29.8, 30, 36, 48, 50.6 MeV;16O(7Li, 7Li), E=50 MeV; calculated, analyzed σ(θ) using optical model and coupled reaction channels; deduced potential parameters. Calculations compared to data.
doi: 10.1140/epja/i2013-13074-y
2012GO32 Iader.Fiz.Enerh. 13, 132 (2012) O.M.Gorbachenko, N.R.Dzysiuk, A.O.Kadenko, I.M.Kadenko, V.A.Plujko, G.I.Primenko Measurement and theoretical analysis of cross sections nuclear reaction (n, p), (n, α), (n, 2n) on isotopes of dysprosium, erbium and ytterbium NUCLEAR REACTIONS 156,158Dy, 162,164Er, 168,170,176Yb(n, 2n), E=14.6 MeV;160,162,163Dy, 162,166,167,168,170Er, 172,173,174,176Yb(n, p), E=14.6 MeV;164Dy, 168,170Er, 174,176Yb(n, α), E=14.6 MeV; measured Eγ, Iγ; deduced σ. Activation technique.
doi: 10.15407/jnpae
2012PL06 Iader.Fiz.Enerh. 13, 340 (2012); Nuc.phys.atom.energ. 13, 340 (2012) V.A.Plujko, O.M.Gorbachenko, E.P.Rovenskykh, V.O.Zheltonoshskii E1 gamma-transitions in hot atomic nuclei NUCLEAR STRUCTURE A=40-230; calculated energy and width of giant dipole resonance. 90Zr, 100Mo, 124Te, 149,150Sm, 171Yb; calculated gamma-decay strength distribution. Comparison to experimentak data. NUCLEAR REACTIONS Fe(n, γ), E<20 MeV; 183W(n, γ), E<2 MeV; calculated σ. Comparison to experimental data.
doi: 10.15407/jnpae
2012RU09 Iader.Fiz.Enerh. 13, 237 (2012) A.T.Rudchik, R.M.Zelinskyi, V.A.Plujko, A.P.Ilyin, Val.M.Pirnak, O.A.Ponkratenko, A.A.Rudchik, V.V.Uleschenko Energy dependence of the 6Li + 16O scattering and isotopic differences between potentials of the 6, 7Li + 16O interactions NUCLEAR REACTIONS 16O(6Li, 6Li), E(cm)=3.27-36.8 MeV; analyzedσ(θ); deduced optical model parameters, reaction mechanism features. Coupled reaction channels method.
doi: 10.15407/jnpae
2012RU10 Iader.Fiz.Enerh. 13, 246 (2012) A.T.Rudchik, O.V.Gerashchenko, A.A.Rudchik, E.I.Koshchy, S.Kliczewski, K.Rusek, S.Yu.Mezhevych, V.A.Plujko, O.A.Ponkratenko, Val.M.Pirnak, A.P.Ilyin, V.V.Uleshchenko, R.Siudak, J.Choinski, B.Czech, A.Szczurek Elastic and inelastic scattering of 14N ions by 7Li at 80 MeV NUCLEAR REACTIONS 7Li(14N, 14N), (14N, X), E=80 MeV; measured reaction products; deduced σ(θ), reaction mechanism features, optical model parameters. 7Li, 14N; deduced deformation parameters. Coupled channels analysis.
doi: 10.15407/jnpae
2012RU11 Iader.Fiz.Enerh. 13, 361 (2012) A.T.Rudchik, R.M.Zelinskyi, A.A.Rudchik, Val.M.Pirnak, S.Kliczewski, E.I.Koshchy, K.Rusek, V.A.Plujko, O.A.Ponkratenko, S.Yu.Mezhevych, A.P.Ilyin, V.V.Uleschenko, R.Siudak, J.Choinski, B.Czech, A.Szczurek Elastic and inelastic scattering of 18O ions by 6Li at 114 MeV and isotopic differences of 6, 7Li + 18O and 6Li + 16, 18O nuclei interactions NUCLEAR REACTIONS 6Li(18O, 18O), (18O, X), E=114 MeV; measured reaction products; deduced σ(θ), reaction mechanism features, optical model parameters. 6Li, 18O; deduced deformation parameters. Coupled channels analysis.
doi: 10.15407/jnpae
2012RU12 Iader.Fiz.Enerh. 13, 371 (2012) A.T.Rudchik, K.A.Chercas, A.A.Rudchik, E.I.Koshchy, S.Kliczewski, K.Rusek, V.A.Plujko, O.A.Ponkratenko, S.Yu.Mezhevych, Val.M.Pirnak, R.Sudak, J.Choinski, B.Czech, A.Szczurek The 6Li(18O, 17O)7Li reaction mechanisms and 7Li + 17O potential NUCLEAR REACTIONS 6Li(18O, 17O), E=114 MeV; measured reaction products; deduced σ(θ), reaction mechanism features, optical model parameters. Coupled channels analysis.
doi: 10.15407/jnpae
2011BO31 Iader.Fiz.Enerh. 12, 129 (2011); Nuc.phys.atom.energ. 12, 129 (2011) B.M.Bondar, V.M.Bondar, O.M.Gorbachenko, I.M.Kadenko, B.Yu.Leshchenko, Yu.M.Onishchuk, V.A.Plujko Differential cross sections of gamma-ray emission in the interactions of fast neutrons with cadmium NUCLEAR REACTIONS Cd(n, xγ), E=14 MeV; measured reaction products, Eγ, Iγ; deduced σ(θ). Comparison with EMPIRE and TALYS nuclear reaction model code calculations.
2011PL02 At.Data Nucl.Data Tables 97, 567 (2011) V.A.Plujko, R.Capote, O.M.Gorbachenko Giant dipole resonance parameters with uncertainties from photonuclear cross sections COMPILATION Z=5-94; compiled experimental values and their uncertainties for isovector giant dipole resonance. Standard and modified Lorentzian approaches.
doi: 10.1016/j.adt.2011.04.001
2011PL04 J.Korean Phys.Soc. 59, 1514s (2011) V.A.Plujko, O.M.Gorbachenko, V.M.Bondar, R.Capote Renewed Database of GDR Parameters for Atomic Nuclei NUCLEAR STRUCTURE A≈20-240; calculated, compiled GDR parameters, strength functions using different forms of Lorentzians. Compared with data. NUCLEAR REACTIONS 183W(n, xγ), E=0-2 MeV; calculated σ using different form of GDR Lorentzians. Compared with data.
doi: 10.3938/jkps.59.1514
2010BO24 Iader.Fiz.Enerh. 11, 246 (2010); Nuc.phys.atom.energ. 11, 246 (2010) V.M.Bondar, O.M.Gorbachenko, I.M.Kadenko, B.Yu.Leshchenko, Yu.M.Onishchuk, V.A.Plujko Spectra of gamma-rays in (n, xγ) reactions on ferrum and bismuth nuclei NUCLEAR REACTIONS Fe, Bi(n, xγ), E=14.1 MeV; measured reaction products, TOF, Eγ, Iγ; deduced σ(E). Comparison with EMPIRE and TALYS nuclear reaction model code calculations. Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32223. 2010RU17 Iader.Fiz.Enerh. 11, 117 (2010) A.T.Rudchik, Yu.O.Shyrma, V.A.Plujko, O.A.Ponkratenko, I.V.Simenog Energy dependence of the 13C + 16O scattering and quasi-molecular absorptian potential NUCLEAR REACTIONS 13C(16O, 16O), E(cm)=6.28-59.17 MeV; analyzedσ(θ); deduced optical model parameters, reaction mechanism features. Coupled reaction channels method.
doi: 10.15407/jnpae
2009BO28 Bull.Rus.Acad.Sci.Phys. 73, 1511 (2009); Izv.Akad.Nauk RAS, Ser.Fiz. 73, 1607 (2009) V.M.Bondar, I.N.Kadenko, B.E.Leshchenko, Yu.N.Onishchuk, V.A.Plujko, A.N.Gorbachenko Cross section of prompt gamma-ray production by fast neutrons on iron and bismuth nuclei NUCLEAR REACTIONS Fe, 209Bi(n, xγ), E=14.1 MeV; measured Eγ, Iγ; deduced σ(E), sensitivity of calculated γ-spectra to characteristics of the excited nuclear states. Hauser-Feshbach model.
doi: 10.3103/S1062873809110203
2009CA27 Nucl.Data Sheets 110, 3107 (2009) R.Capote, M.Herman, P.Oblozinsky, P.G.Young, S.Goriely, T.Belgya, A.V.Ignatyuk, A.J.Koning, S.Hilaire, V.A.Plujko, M.Avrigeanu, O.Bersillon, M.B.Chadwick, T.Fukahori, Z.Ge, Y.Han, S.Kailas, J.Kopecky, V.M.Maslov, G.Reffo, M.Sin, E.Sh.Soukhovitskii, P.Talou RIPL - Reference Input Parameter Library for Calculation of Nuclear Reactions and Nuclear Data Evaluations
doi: 10.1016/j.nds.2009.10.004
2009PL02 Int.J.Mod.Phys. E18, 996 (2009) V.A.Plujko, O.M.Gorbachenko, E.V.Kulich Lorentzian-like models of E1 radiative strength functions
doi: 10.1142/S0218301309013142
2009RO10 Phys.Rev. C 79, 054609 (2009) V.O.Romanyshyn, A.T.Rudchik, K.W.Kemper, S.Kliczewski, E.I.Koshchy, O.A.Ponkratenko, K.Rusek, A.Budzanowski, J.Choinski, B.Czech, L.Glowacka, S.Yu.Mezhevych, Val.M.Pirnak, V.A.Plujko, A.A.Rudchik, I.Skwirczynska, R.Siudak, A.Szczurek 8Be scattering potentials from reaction analyses NUCLEAR REACTIONS 7Li(10B, X)6Li/7Li/8Li/7Be/9Be/10Be/10B/11B, E=51 MeV; measured particle spectra. 7Li(10B, 9Be), E=51 MeV; 10Be(7Li, 9Be), E=24 MeV; measured 9Be spectra, σ(θ), analysis by coupled-reaction-channels method using optical potentials of Woods-Saxon type. 8Be; deduced levels, J, π.
doi: 10.1103/PhysRevC.79.054609
2008BO39 Iader.Fiz.Enerh. 9 no.1, 16 (2008) V.M.Bondar, I.M.Kadenko, B.Yu.Leshchenko, Yu.M.Onishchuk, V.A.Plujko Cross section of γ-rays irradiation in reactions of neutron absorption by iron NUCLEAR REACTIONS Fe(n, Xγ), E=14.1 MeV; measured Eγ, Iγ;deduced σ(E). Comparison with statistical model calculations.
doi: 10.15407/jnpae
2008PL03 Int.J.Mod.Phys. E17, 240 (2008) V.A.Plujko, I.M.Kadenko, O.M.Gorbachenko, E.V.Kulich The simplified description of dipole radiative strength function NUCLEAR STRUCTURE 91Zr, 118Sn, 124Te, 144,146Nd, 148,150Sm, 207,208Pb; calculated E1 and M1 γ-decay strength functions; deduced GDR features. Comparison with experimental data.
doi: 10.1142/S0218301308009744
2008PL04 Iader.Fiz.Enerh. 9 no.3, 28 (2008); Nuc.phys.atom.energ. 9, no.3, 28 (2008) V.A.Plujko, O.I.Davidovskaya, I.M.Kadenko, E.V.Kulich, O.M.Gorbachenko E1 radiative strength function for gamma-decay and photoabsorption NUCLEAR STRUCTURE A=40-230; calculated energy and width of giant dipole resonance. 118Sn; calculated gamma-decay strength distribution. NUCLEAR REACTIONS 120,124Sn(γ, X), E=18 MeV; calculated photoabsorption σ.
doi: 10.15407/jnpae
2007PL01 Int.J.Mod.Phys. E16, 570 (2007) V.A.Plujko, O.M.Gorbachenko, I.M.Kadenko Vibrational state contribution to nuclear level density
doi: 10.1142/S0218301307006010
2007PL06 Phys.Atomic Nuclei 70, 1643 (2007) Effect of vibrational states on nuclear level density
doi: 10.1134/S1063778807090256
2006BE61 Bull.Rus.Acad.Sci.Phys. 70, 787 (2006) O.A.Bessheiko, L.A.Golinka-Bessheiko, I.N.Kadenko, V.A.Plujko, V.A.Zheltonozhsky Dependence of isomeric ratios upon parameters of nuclear models NUCLEAR STRUCTURE 104Rh, 137Ce, 212At; A=40-208; calculated relative population of isomeric levels.
2006GO36 Iader.Fiz.Enerh. 7 no.2, 48 (2006) Vibrational enhancement of nuclear level density NUCLEAR STRUCTURE A=40-240; calculated width of quadrupole resonance; A=120-240;calculated width of octupole resonance;56Fe, 146Sm; calculated vibrational enhancement of the level densities. Comparison with experimental data.
doi: 10.15407/jnpae
2006PL05 Int.J.Mod.Phys. E15, 387 (2006) V.A.Plujko, I.M.Kadenko, O.A.Bezshyyko, L.O.Golinka-Bezshyyko, O.I.Davidovskaya Comparison and testing of methods for E1 strength calculations NUCLEAR STRUCTURE 40Ca, 208Pb; A=30-210; calculated E1 radiative strength functions, photoabsorption σ. Several models compared with data.
doi: 10.1142/S0218301306004259
2006PL11 Bull.Rus.Acad.Sci.Phys. 70, 739 (2006) V.A.Plujko, O.A.Bessheiko, L.A.Golinka-Bessheiko, O.I.Davidovskaya, I.N.Kadenko, R.V.Ermolenko Comparison and testing of methods for E1 radiative strength function NUCLEAR REACTIONS 40Ca, 120Sn, 208Pb(γ, X), E ≈ 5-30 MeV; calculated photoabsorption σ. NUCLEAR STRUCTURE 40Ca, 120Sn, 208Pb; calculated photoabsorption σ. A=40-200; calculated radiative strength functions. Several models compared.
2005PL06 Iader.Fiz.Enerh. 6 no.2, 17 (2005) Calculation of vibrational enhancement of nuclear level density within response function method NUCLEAR STRUCTURE 56Fe, 146Sm; calculated level densities, level densities change depending on the excitation energy, temperature, contribution from quadrupole vibrational states. Response function approach.
doi: 10.15407/jnpae
2004BE61 Bull.Rus.Acad.Sci.Phys. 68, 1727 (2004) O.A.Bessheiko, R.V.Ermolenko, I.N.Kadenko, V.A.Plujko, V.A.Zheltonozhsky Analysis of photonuclear reactions with Empire II code NUCLEAR REACTIONS 91Zr, 98Mo, 116,124Sn, 208Pb(γ, X), E=4-24 MeV; analyzed photoabsorption σ.
2004BE63 Iader.Fiz.Enerh. 5 no.2, 17 (2004) O.A.Bezshyyko, I.N.Vishnevsky, V.A.Zheltonozhsky, I.M.Kadenko, V.M.Mazur, V.A.Plujko, N.V.Strilchuk Isomeric ratio study of photofission fragments of 238U and 237Np NUCLEAR REACTIONS 238U, 237Np(γ, F), E<16 MeV; measured Eγ, Iγ; deduced isomeric ratios for the fission fragments 84Br, 129Sb, 130Sb, 132Sb, 131Te, 133Te, 134I and 135Xe.
doi: 10.15407/jnpae
2003PL03 Bull.Rus.Acad.Sci.Phys. 67, 1713 (2003) Effect of vibration state damping on level density of atomic nuclei NUCLEAR STRUCTURE 56Fe; calculated level density variation coefficient vs excitation energy, damping width.
2002PL05 J.Nucl.Sci.Technol.(Tokyo) 39, Supp.2, 811 (2002) V.A.Plujko, S.N.Ezhov, M.O.Kavatsyuk, A.A.Grebenyuk, R.V.Yermolenko Testing and Improvements of gamma-ray strength functions for nuclear model calculations NUCLEAR STRUCTURE 90Zr, 144Nd; calculated E1 γ-ray decay strength functions.
doi: 10.1080/00223131.2002.10875222
2001PL01 Acta Phys.Slovaca 51, 231 (2001) V.A.Plujko, O.M.Gorbachenko, M.O.Kavatsyuk Two-Body Relaxation Times in Heated Nuclei
2000AB45 Iader.Fiz.Enerh. 1, no.1, 43 (2000); Nuc.phys.atom.energ. 1, no.1, 43 (2000) V.I.Abrosimov, V.M.Kolomietz, V.A.Plujko Response of electronic surface in metal clusters within a phase space approach NUCLEAR STRUCTURE 40Na; calculated collective strength distribution in dipole resonances. Investigated electronic surface vibrations with application to the description of dipole strength in Na clusters. Phase-space approach based on Landau-Vlasov kinetic equation.
doi: 10.15407/jnpae
2000PL06 Acta Phys.Pol. B31, 435 (2000) A New Closed-Form Thermodynamic Approach for Radiative Strength Functions NUCLEAR STRUCTURE 90Zr; calculated E1 decay strength function. Thermodynamic pole approximation, comparison with data. NUCLEAR REACTIONS 90Zr(γ, X), E=13-20 MeV; calculated photoabsorption σ. Thermodynamic pole approximation, comparison with data.
2000PL13 Iader.Fiz.Enerh. 1, no.1, p.7 (2000); Nuc.phys.atom.energ. 1, no.1, p.7 (2000) V.A.Plujko, S.N.Ezhov, A.S.Mikulyak Statistical description of the radiative strength function NUCLEAR STRUCTURE A=20-235;144Nd; calculated E1 strength functions;deduced GDR features. Closed-form thermodynamic pole approach.
doi: 10.15407/jnpae
1999KO07 Yad.Fiz. 62, No 1, 91 (1999); Phys.Atomic Nuclei 62, 86 (1999) V.M.Kolomietz, S.V.Lukyanov, V.A.Plujko, S.Shlomo Two-Body Contribution to the Relaxation of Collective Excitations in Cold Finite Fermi Systems
1999PL02 Nucl.Phys. A649, 209c (1999) An Investigation of Interplay between Dissipation Mechanisms in Heated Fermi Systems by Means of Radiative Strength Functions NUCLEAR STRUCTURE 144Nd; calculated γ-decay E1 strength functions; deduced GDR features.
doi: 10.1016/S0375-9474(99)00063-9
1999PL03 Acta Phys.Pol. B30, 1383 (1999) Relaxation of Fast Collective Motion in Heated Nuclei NUCLEAR STRUCTURE A=90-210; 112Sn; calculated intrinsic GDR widths.Vlasov-Landau equation.
1998KO26 Phys.Rev. C58, 198 (1998) V.M.Kolomietz, S.V.Lukyanov, V.A.Plujko, S.Shlomo Collisional Relaxation of Collective Motion in a Finite Fermi Liquid
doi: 10.1103/PhysRevC.58.198
1998KO71 Bull.Rus.Acad.Sci.Phys. 62, 758 (1998) V.M.Kolomietz, S.V.Lukyanov, V.A.Plujko Dissipative Properties of Collective Excitations in a Finite Fermi Liquid within the Semiclassical Approach NUCLEAR STRUCTURE A=40-220; calculated GQR widths. Semiclassical approach. Comparison with data.
1997KO42 Bull.Rus.Acad.Sci.Phys. 61, 90 (1997) V.M.Kolomietz, S.V.Lukyanov, V.A.Plujko Impact of Diffuseness of the Static Wigner Distribution Function on the Relaxation of Collective Excitations in Cold Nuclei NUCLEAR STRUCTURE A ≈ 30-250; calculated giant quadrupole resonance damping widths. Static Wigner distribution function diffuseness, collisional integral delay effects.
1996KO46 Phys.Rev. C 54 3014 (1996) V.M.Kolomietz, V.A.Plujko, S.Shlomo Interplay between One-Body and Collisional Damping of Collective Motion in Nuclei NUCLEAR STRUCTURE A=50-250; calculated giant multipole resonance Γ. Landau-Vlasov kinetic equation.
doi: 10.1103/PhysRevC.54.3014
1995KO35 Phys.Rev. C52, 2480 (1995) V.M.Kolomietz, V.A.Plujko, S.Shlomo Collisional Damping in Heated Nuclei within the Landau-Vlasov Kinetic Theory NUCLEAR STRUCTURE 112Sn; calculated GDR collisional width vs temperature, excitation. Collective vibrations, collisional damping, Vlasov-Landau equation.
doi: 10.1103/PhysRevC.52.2480
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